smart.unsw.edu.au
Professor Gangadhara Prusty | SMaRT@UNSW
http://smart.unsw.edu.au/node/74
Skip to main content. Sustainable Materials Research and Technology. Research Programs and Projects. Recycling and Materials Transformations. Sustainability of Materials Processes. New Technologies and Products. Sustainable Manufacturing and Translational Research. Community and Student Engagement. Deputy Director, Centre for Sustainable Materials Research and Technology. Phone: 61 (2) 9385 5939. Email: g.prusty@unsw.edu.au. Centre for Sustainable Materials Research and Technology. UNSW SYDNEY NSW 2052.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/three-d-mohrs-circle
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. 3D Mohr's Circle. Based on the 2D Mohr's Circle fundamentals, this Adaptive Tutorial takes the user further into the 3D Mohr's Circle construction. This would allow to distinguish the three principal stresses and absolute maximum shear stress graphically. Stress and strain transformation in 3D. A/Prof. G. Prusty. More Solid Mechanics tutorials. Shear Force and Bending Moment.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/projectiles
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. Projectile motion is one of the most common curvilinear motions and is a good starting point for learning kinematics of particles. Through a simple animated example of cannon hitting targets, the user learns the concepts of projectile-related topics covering rectangular coordinates (x-y) and normal and tangential coordinates (n-t). Shear Force and Bending Moment.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/shear-force-bending-moment
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. Shear Force and Bending Moment. This Adaptive Tutorial demonstrates the concepts of calculating the values of shear force and bending moment for a complex structure. The activity provides step by step explanation of the procedure required to plot the shear force and bending moment diagrams for the loaded beam. Shear Force and Bending Mement Diagrams. A/Prof. G. Prusty.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/about
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. With the exception of the Commonwealth Coat of Arms, and where otherwise noted, all material presented in this document is provided under a Creative Commons Attribution 3.0 Australia licence ( http:/ creativecommons.org/. Youtube url="http:/ youtu.be/RfvzYzLE-yI" height="100" width="100"]. Prof Timothy J McCarthy. Tim McCarthy is Professor of Structural Steel and Design at the Un...
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/trusses
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. Trusses, using two force members made up of triangles, can be rather complicated and techniques are needed for handling these multiple forces. This tutorial is developed to provide the user with all the necessary ingredients to have a complete understanding of truss analysis. Two force member analysis. Dr Z Vrclej / A. Gardner / A/Prof. G. Prusty. Shear Force and Bending Moment.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/torsion
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. The effect of torque is of primary concern in the design of drive shafts or axles in machinery. The objective of this Adaptive Tutorial is to work through the aspects of internal torque, torsional shear stress and the angle of twist along the drive shafts or axles. A/Prof. G. Prusty. More Solid Mechanics tutorials. Shear Force and Bending Moment. 3D Mohr's Circle.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/mechanics-fundamentals
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. Based on a bridge inspection, this Adaptive Tutorial refreshes the fundamentals of mechanics. Students will be required to determine the loads, reactions at the supports, shear force and bending moment at any section of the given structure. Equilibrium, Shear Force and Bending Moment. A/Prof. G. Prusty. Shear Force and Bending Moment. 3D Mohr's Circle. 2D Mohr's Circle.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/friction
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. This Adaptive Tutorial explains the concepts on friction and equilibrium. It is based on a real life example of a tow truck in action on an inclined plane. A/Prof. G. Prusty. Shear Force and Bending Moment. 3D Mohr's Circle. 2D Mohr's Circle. You'll be able to adapt and teach with this lesson in no time. Click here to visit the new version of Adaptive Mechanics to adapt the lesson.
adaptive-mechanics.eng.unsw.edu.au
Adaptive Mechanics
http://adaptive-mechanics.eng.unsw.edu.au/showcases/centrois
You are viewing an old version of Adaptive Mechanics. Click here to view the new version. Community of Practice for Mechanics. This Adaptive Tutorial is designed to improve the skill of finding the centre of gravity and moment of inertia of composite bodies using the first and second moment of area principles respectively. In this tutorial, the users have the option to drag the centroids of regular shapes to the correct location. First Moment of Area. Shear Force and Bending Moment. 3D Mohr's Circle.
